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Journal of the Chinese Institute of Engineers Volume 47, 2024 - Issue 5
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Mechanical Engineering

Cutting-edge tool wear monitoring in AISI4140 steel hard turning using least square-support vector machine

Rajeev Da Department of Mechanical Engineering, MarEphraem College of Engineering and Technology, Marthandam, India
,
AjithaPriyadarsini Sb Department of Electrical and Electronics Engineering, Narayanaguru College of Engineering and Technology, Manjalumoodu, India
,
Jeen Robert RBc Department of Mechanical Engineering, Sri Krishna College of Technology, Coimbatore, IndiaCorrespondence[email protected]
&
Senthil Maharaj Kennedyd Department of Mechanical Engineering, AAA College of Engineering and Technology, Sivakasi, India
Pages 492-507 | Received 31 Aug 2023, Accepted 22 Mar 2024, Published online: 02 May 2024
 
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ABSTRACT

This research addresses the critical challenge of tool wear monitoring in AISI4140 steel hard turning through the innovative application of a Least Square-Support Vector Machine (LS-SVM) prediction model. While acknowledging the growing significance of hard turning over conventional grinding techniques, the background also recognizes the challenges posed by accelerated tool wear and decreased productivity. The main goal is to create a reliable tool wear prediction model that is tailored to harsh turning circumstances. Material selection, cutting force measurement, acceleration measurement, and accurate tool wear measurement are all included in the experimental procedures. Using time and frequency domain analyses, the research methodically examines how cutting force and acceleration affect tool wear. For feature selection, non-linear regression is used to determine which parameters have the greatest influence on wear. A comprehensive training and validation procedure, structural clarification, and a detailed mathematical foundation are used in the development of the LS-SVM-based tool wear prediction model. The presentation of the findings and related discussions explores the impact of acceleration and cutting force on wear. The LS-SVM model’s successful application for precise tool wear prediction in AISI4140 steel hard turning is highlighted in the conclusions, demonstrating the model’s potential to improve tool lifespan and manufacturing efficiency.

CO EDITOR-IN-CHIEF:

ASSOCIATE EDITOR:

Disclosure statement

No potential conflict of interest was reported by the author(s).

Nomenclature

ap=

Depth of cut (mm)

f=

Feed rate (mm/rev)

Fx=

Feed force (N)

Fy=

Thrust force (N)

Fz=

Tangential force (N)

HRC=

Rockwell hardness

L=

Machining Length (mm)

V=

Cutting speed (m/min)

Vb=

Tool wear (mm)

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